Wastewater Treatment Reactors: Microbial Community Structure analyzes microbial community structure in relation to changes in physico-chemical parameters, the gene content (metagenome) or gene expression (metatranscriptome) of microbial communities in relation to changes in physico-chemical parameters, physiological aspects of microbial communities, enrichment cultures or pure cultures of key species in relation to changes in physico-chemical parameters, and modeling of potential consequences of changes in microbial community structure or function for higher trophic levels in a given habitat.
As several studies have been carried out to understand bulking phenomena and the importance of environmental factors on sludge settling characteristics, which are thought to be strongly influenced by flocculation, sludge bulking, foaming and rising, this book is an ideal resource on the topics covered.
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Table of Contents
1. Strategic approach for characterization of bacterial community in enhanced biological phosphate removal process
2. Removal of pollutants from wastewater via biological method and shift in microbial community profile during treatment process
3. Nitrogen removal bacterial communities characteristics and dynamics at lab scale reactors
4. Role of the microbial community in the anaerobic digester for biomethane production
5. Microbial diversity, interactions and biodegradation of hazardous textile wastewater using biological consortium technology
6. An overview of theoretical and experimental approach to study environmental microflora
7. Microbial diversity, interactions and biodegradation of organic and inorganic contaminants
8. Metagenomics- A field revealing the secrets into microbial world of waste water treatment plants.
9. Metagenomics: a powerful lens viewing the microbial world
10. Environmental Parameters Affecting Anaerobic Microbial Community
11. Molecular techniques used to identify perfluorooctanoic acid degrading bacteria/ microbes and their applications in wastewater treatment reactor/plant
12. Enhanced biological phosphate removal process for wastewater treatment: a sustainable approach
13. Modelling microbial communities: Consensual among experimentalist and theorist
14. Metagenomics: a powerful lens viewing the microbial world
15. Microbial diversity, interactions and Biodegradation/Biotransformation of organic and inorganic contaminants
16. Microbial community diversity in a waste water treatment plant
17. Molecular Biology Techniques for the Identification of Microbial Community in Waste- Water Treatment Reactors
18. Aerobic sludge granulation and enhanced dicamba removal efficiency in the presence of AQS redox mediator in a lab scale anaerobic-aerobic treatment method
19. Unraveling microbial complexities via metagenomic approach: Expanding cross-talk for environment management & Prospecting
20. Metagenomics: A computational approach in emergence of novel applications
21. Microbial Community Analysis of Domestic Wastewater during Blackwater Treatment
22. Molecular Biological Techniques used in Environmental Engineering: Current prospects and challenges
23. Removal of Heavy Metals by Microbial Communities
24. A comprehensive insight into tetracycline resistant bacteria and antibiotic resistance genes in activated sludge using next-generation sequencing
25. Bacterial Community Structure, Composition and Their Role in Biological Wastewater Treatment Reactors Plants
Authors
Maulin P Shah Chief Scientist and Head of the Industrial Waste Water Research Lab, Division of Applied and Environmental Microbiology Lab at Enviro Technology Ltd., Ankleshwar, Gujarat, India.Dr. Maulin P. Shah is Chief Scientist and Head of the Industrial Waste Water Research Lab, Division of Applied and Environmental Microbiology Lab at Enviro Technology Ltd., Ankleshwar, Gujarat, India. His work focuses on the impact of industrial pollution on the microbial diversity of wastewater following cultivation-dependent and cultivation-independent analysis. His major work involves isolation, screening, identification, and genetically engineering high-impact microbes for the degradation of hazardous materials. His research interests include biological wastewater treatment, environmental microbiology, biodegradation, bioremediation, and phytoremediation of environmental pollutants from industrial wastewaters.
Susana Rodriguez-Couto Full Professor (Biological Water Treatment), Department of Separation Science, LUT School of Engineering Science, LUT University, Finland. Susana Rodr�guez-Couto (female) got her B.Sc. and M.Sc. in Chemistry (Industrial Chemistry) from the University of Santiago de Compostela in 1992 and her Ph.D. in Chemistry in 1999 from the University of Vigo, obtaining the maximal grade (magna cum laude) and, in addition, she was awarded with the Extraordinary Prize for Doctoral Thesis in Chemistry. She worked as an Associate Professor and an Isidro Parga Pondal Senior Researcher at the University of Vigo (2000-2004), as a Ram�n y Cajal Senior Researcher at Rovira i Virgili University (2004-2008) and as an Ikerbasque Research Professor (2009-2019). She has also worked as an Invited Researcher at the Institute from Environmental Biotechnology, Graz University of Technology (Austria) and at the Department of Biological Engineering, University of Minho (Portugal). In 2008, she received the I3 Professor from the Spanish Ministry of Science and Education to the recognition of an outstanding research activity. In March 2021 she is joining LUT School of Engineering Science at Mikkeli, Finland, as a Full Professor in biological water treatment. She has published more than 140 articles in highly reputed international journals (h index 42). She is editor of several journals (3Biotech, Frontiers) and 14 Elsevier books.
